Course Contents

Department of Energy Systems Engineering (Students of 2016 and Later)

TRD109 Turkish Language - I (2 0 2 2)

Properties of language, its importance on the social life, historical periods of Turkish, phonetics, words by meaning and role, punctuation, presentation, poetry, essay, composition, story, article, newspaper and magazine studies and applications.

YDİ107 Foreing Language –I (English) (2 0 2 2)

'Talking and giving the basic information about yourself and asking the information from others’, ‘the days of the week, the months of the year and the years’, ‘telling the time’, ‘Who, What, Where, When and other question words’, ‘how and where to use the present simple tense’, ‘in/ on/ at as the prepositions of time’, ‘abilities disabilities with can and can’t’, ‘personal pronouns and possessive adjectives’, ‘necessity, prohibiton, obligation and lack of necessity with must/ mustn’t/have to/ has to/ don’t-doesn’t have to’, ‘have got/ has got’,‘How much…? How many…? a lot of/ much/ many’.

MAT161 Mathematics-I (4 0 0 6)

Numbers, complex numbers, description of functions, types, custom-defined functions. trigonometry, hyperbolic functions, limits, continuity, derivatives, maxima and minima, graphics, drawings, coordinates

FİZ111 Physics-I (4 0 0 6)

Surveying, Vectors, Lines on the motion, two three dimensional motion, Newton's Laws of Motion, Newton Implementations of Laws, Work and Kinetic Energy, Energy Conservation and Potential Energy, multi-threaded systems and Center of Mass, Linear Momentum and Collisions, Rotation, Rotation motion and Angular Momentum, the Law of Universal Gravitation, Static Equilibrium and Elasticity, Vibration movement and waves, harmonics, applications.

FİZ105 Physics Lab.-I (0 2 0 2)

KIM105 Chemistry (4 0 0 6)

Chemistry and materials, the structure of atoms, periodic table and its energy levels, Chemical bonds, stoichiometry. Gas, liquid and solids properties. Chemical reactions, chemical equilibrium, reaction kinetics. Acids, bases and pH calculations. Electrochemistry, chemical thermodynamics. Conductor, insulator and semiconductor materials properties.

KIM109 Chemistry Lab. (0 2 0 2)

ESM101 Introduction to Energy Systems Eng. (2 0 0 2)

Energy sources, the historical development of energy technology, steam energy and machinery, internal-combustion engine, power plants, energy statistics, conventional energy sources, renewable energy sources, problems and solutions to the energy efficiency applications, the social costs of energy production, external costs of energy, new opportunities and new technologies in energy production.

ESM103 Electrical-Electronics Technology - I (2 0 0 2)

Electrical definitions and units, the basic laws, circuit analysis methods, resistive circuit, inductor and capacitor, dynamic response, alternating current circuits, electrical measurement and measuring instruments, chemical effect, transformers, generator, and engines, semiconductor electronics, diode and working principles of transistors and simple applications, operational amplifiers and applications, logic gates and its applications.

TRD110 Turkish Language-II (2 0 2 2)

Essay Information, Literary Types, Scientific Research and Writing Methods, Spelling Rules, Punctuation, Sentence Elements, Studies Related to Disorders of Speech and Sentence.

YDİ108 Foreing Language –II (English) (2 0 2 2)

‘There is…, there are…’, ‘a lot of/ some/ a little/ a few, little, few, much, many, how much and how many?’ ‘on/ under/ below and other prepositions of place and movement’, ‘making suggestions with let’s/ shall we, why don’t we, what/ how about’, ‘can/ could you and asking for help, making requests?’, ‘preference with would like’, ‘how often…?, never/ rarely/ usually and other frequency of adverbs’, ‘simple past tense with regular and irregular verbs’, ‘why…? And Because….’, ‘as…as, so…as, comparative and superlative forms of the adjectives and adverbs’.

MAT162 Mathematics-II (4 0 0 6)

Matrix Assisted Solution of Systems of Linear Equations, Vector and operations, Vector Spaces; Linear Transformations, Analytical Geometry, Series, Series Expansion of Functions, Taylor and Maclaurin series, multivariate functions, limits of functions of several variables, continuity, partial derivatives; Full (Total) Differential, compound, derivative of implicit and inverse functions, maxima and minima of multivariable functions in operations, application of partial derivatives, the Jacobins, Multiple integrals; Area and volume, surface integral, Gradient, Divergence, Curl and Laplace concepts.

FİZ112 Physics –II (3 0 0 5)

Coulomb's Law, Electric Field, Gauss's Law, Faraday's Law, Electric Potential, Current and Resistance, Direct Current Stages, Magnetic Field, Current-Carrying Conductor Effective Magnetic Properties, magnetic field of a current and magnetic properties is, Induction Electromotive Force, Capacitance, properties of the dielectric, induction and transient currents, Alternating Current and Electromagnetic Waves.

FİZ106 Physics Lab. –II (0 2 0 2)

ESM102 Experimental Methods and Measurement (2 1 0 3)

Basic concepts, definition of terms, the calibration, standards, dimensions and units, generalized measurement system, the basic concepts of dynamic measurements, system behavior, the impedance calculation, experiment planning. Analysis of experimental data, the types and causes of experimental errors, the uncertainty analysis, Statistical analysis of experimental errors, Basic electrical measurements and detection tools, Displacement and area measurement, pressure measurement, flow measurement, temperature measurement, thermal and transport properties measurements, force, torque, strain measurement, motion and vibration measurement, measurement of thermal and nuclear radiation, air pollution measurement methods, information acquisition and processing, report writing and presentation.

ESM104 Installation Technology (2 1 0 3)

Standards related to the subject, Physical and chemical properties of the water, acquisition, transmission and distribution methods, cleaning and softening the water, is delivered in. Regulation of water supply in. Wet and dirty water systems, arrangement of spaces, account the pipe diameter. Installation of storm water regulation, dimensioning and calculations. Arranging installation of fire, calculations and the design. Calculation of the hot water is needed to use, preparation and installation. Calculations and make the election about Booster and stores.

ESM106 Electrical-Electronics Technology - II (3 0 0 4)

ESM108 Computer Aided Technical Drawing-I (2 2 0 3)

Introduction to computer aided technical drawing, geometric drawings, principles of orthogonal projection, principal views from three-dimensional models extracted, The third appearance of the Outlook, remove the two main, free-hand drawing techniques, three-dimensional drawing techniques, simple shapes, inclined surfaces, contrary to the surfaces, principles of dimensioning, Principles of sectioning.

AİT209 Prin. of Ataturk&Hist.of Rev.-I (2 0 0 2)

The aim of reading of Turkish Revolution History and Kemalism lessons and the concept of reforms. Reasons that prepared the Turkish revolution and the collapse of the Ottoman Empire. Armistice Agreement and subsequent events, condition of country against occupations and reaction of Mustafa Kemal Pasha. Output of Mustafa Kemal Pasha in Samsun and opening of the last Ottoman Parliament Mebusan. Opening of Parliament and to take control of Independence war management by Parliament.

ESM201 Fluid Mechanics-I (3 1 0 4)

The main purpose of this course, almost every area of fluids in the understanding of basic concepts and application areas, understanding of fluid mechanics applications, mechanical education students to grow in the machine design capabilities of Fluid Mechanics and finding solutions to encountered problems.

ESM203 Engineering Mechanics-I (2 1 0 4)

Forces, centroids and moments of inertia, Carrier Systems and equilibrium, trusses, cables, friction, internal forces and strain analysis.

ESM205 Thermodynamic-I (4 0 0 5)

Defining of thermodynamics, properties of pure substance, work and heat, first and second laws of thermodynamics, entropy and heat, irreversibility.

MAT215 Linear Algebra (2 0 0 4)

Matrices, determinants and linear equations. Vector spaces, Inner product spaces, linear transformations. Eigenvalues and eigenvectors, diagonalization of symmetric matrix update. Solutions to major issues and problems related to mathematics.

İST217 Probability and Statistics (3 0 0 4)

Introduction to probability, discrete random variables, continuous random variables, distributions involving two random variables, introduction to statistical parameter estimation, statistical hypothesis testing, linear models.

ESM207 Electromechanical Energy Conversion (3 1 0 4)

Basic concepts and definitions of electromechanic energy conversion, permanent magnet materials and their circuits, electromagnetic circuit problem, energy and co-energy, reluctance motors, magnemotor force diagrams and machine models.

ESM209 Computer Aided Technical Drawing-II (2 2 0 3)

AİT210 Prin. of Ataturk&Hist.of Rev.-II (2 0 0 2)

The revolutions in the political field, political parties and experiments of transition to multiparty political life, the revolutions in the field of law, regulation of social living, the innovations in the economic sphere. Turkish foreign policy in the 1923–1938 Period, Turkey's foreign policy post-Ataturk period. Principles of Turkish Revolution: Republicanism, Populism, Secularism, Reformism, Statism, Nationalism.

ESM202 Fluid Mechanics-II (3 1 0 4)

Drinking water supply, wastewater disposal, water distribution networks account, irrigation, drying, hydroelectric power generation, regulation of rivers, sea outfalls, etc. to emphasize that the solution of problems, such as basic science. Students in general, the fluid, especially water, affects the behavior under a variety of forms, the pressure forces at standstill while the effect of different surfaces, acting on the causes and demonstrate practical applications. Factors affecting the movement of the fluid, the fluid movement of the monitoring methods, flow and fluid types, according to them the basic equations (continuity, motion and energy equation), and the problems encountered in practice and explore ways of providing solutions.

ESM204 Thermodynamic -II (4 0 0 4)

General thermodynamics and third law, thermodynamic properties of gasses, thermodynamic properties of vapours, compressed air, combustion machines, vapour cycles, vapour machines and turbines, cooling cycles and heat pump.

ESM206 Engineering Mechanics-II (2 1 0 4)

Forces, centroids and moments of inertia, Carrier Systems and equilibrium, trusses, cables, friction, internal forces and strain analysis.

ESM208 Boiler and Combustion Technologies (2 1 0 3)

Basic knowledge of boilers, fire tube boilers, water tube boilers, smoke tube boilers, horizontal and vertical boilers, package type boilers, boiler selection and calculation of boiler capacity, thermal efficiency of boilers, fuels, thermodynamic of combuction, combustion of gaseous and vaporized fuels, combustion of liquid fuels, combustion of solid fuels, efficiency of combustion

MAT220 Differential Equations (4 0 0 6)

Introduction, formulation of engineering problems, linear equations. Matrices and determinants. Linear systems, nonlinear systems of equations. Numerical methods, ordinary differential equations: first order, second order, higher order differential equations, series solutions of ordinary differential equations, Laplace transforms, and ordinary differential equation systems. Initial value problems, boundary value problems. Partial differential equations, method of characteristics, combining method, method of combining the variables. Integral transform, numerical methods.

ESM210 Electrical Machines (4 1 0 5)

Fundamentals of electrical engineering: electric circuits, circuit components and laws, alternative current circuits, multi-phase systems. Transformers, induction machines, direct current machines.

ESM212 Bussiness English (2 0 0 2)

Operations and formulas, numbers, functions, geometric shapes, direction terms, structure, building components, tools and equipment construction terms. Cause-effect structures, adjective and noun clauses, conjunctions, passive sentences, causative sentences when used in academic papers, sentence structure, academic terms. Article translate, translation of parts of professional books and users guide.

ESM301 Heat Transfer - I (3 0 0 4)

Definitions and concepts of heat transfer. Heat transfer mechanisms; conduction, convection, radiation. Location and sample applications in the application of heat transfer. Introduction steady state heat conduction; boundary and initial conditions, conduction equation, steady state heat conduction equation and expressions in cartesian, cylindrical and spherical coordinates. Planar wall, composite wall and radial systems conduction heat transfer, thermal contact resistance and the critical radius of insulation in cylindrical surfaces. Heat transfer with fin surfaces, different boundary conditions of heat transfer through the fin, the fin effectiveness and efficiency, time-dependent heat conduction, bulk and non-formal systems, Time-dependent analytical solution of heat conduction equation, Introduction to convection heat transfer: natural and forced convection, boundary layer concept, Biot and Fourier numbers, Transient heat conduction equations graphics solution.

ESM303 Engineering Numerical Methods (3 0 0 4)

Description of Numerical Methods and applications, error analysis, solution of linear and nonlinear systems, interpolation, regression analysis, curve fitting, solution of ordinary differential equations, solution of partial differential equations.

ESM305 Energy Systems Engineering Laboratory-I (2 2 0 4)

This course contains heat transfer, thermodynamics, fluid mechanics, material science, power systems experiments (heat conduction coefficient, radiation heat transfer mechanisms, convection coefficient, flows in pipes, pressure losses, Bernoulli applications, Osborn-Reynolds applications, heating and cooling).

ESM307 Energy Transmission and Distribution (2 0 0 4)

Generation, transmission and distribution systems. Conductors. Insulators. Towers and selection. Disconnectors, breakers. Busbars and busbar systems.

ESM309 Power Electronics (4 1 0 5)

Power electronics definition, be associated with fields, diode, thyristor, triac, turn-off thyristor. Power BJT, MOSFET, IGBT, GTO, MCT, SIT, IGCT. Loss of power semiconductor elements, heat sink design. Driving circuits and electrical insulation, Analysis of switched circuits. Single-phase uncontrolled rectifier circuits. Three-phase uncontrolled rectifier circuits. Single-phase-controlled rectifier circuits. Three-phase-controlled rectifier circuits. AC switches, single-phase AC choppers. DC-DC chopper circuits. One-and three-phase inverter circuits.

ESM311 Science of Material (2 1 0 3)

The scope of material science, development and place of it in engineering, classification of materials.Atomic structure and interatomic forces of attraction. Amorphous and crystalline systems, the mechanism of crystallization.Short-and long-distance arrangement, the unit cells, the unit cell point, direction, and planes.Allotropik transformations, crystal defects, dislocations, atomic diffusion. Fick's laws and practices, types of diffusion, elastic and plastic deformation mechanisms, fracture, alloys, structure. Solid solutions, materials, hardening and strengthening, precipitation, dispersion and deformation hardening, aging. Material test methods: tensile, compression, flexure, creep, torsion, fatigue, pounding and hardness tests. Phase diagrams, solid-state transformations, iron-carbon alloy system, iron and steel production. Steel norms, and structures of iron-cementite phase diagram. Heat treatments annealing, tempering, hardening and surface modification methods. Heat treatments annealing, tempering, hardening and surface modification methods. Isothermal and continuous cooling transformation diagrams, alloy steels.

ESM317 Energy Storage Techniques (2 1 0 4)

Introduction of heat storage. Heat transfer. Solar energy (solar collector). Natural heat sources (ground water temperature, ground temperature, geothermal energy, the surface water temperature). Thermal energy storage techniques (sensible and latent heat storage). Thermal energy storage potential. Thermal energy storage systems (efficiency, thermal properties, heat losses, the temperature field).

ESM331 Entrepreneurship (2 0 0 2)

Characteristics of entrepreneurship and entrepreneurial. Creativity in entrepreneurship. Innovation in Entrepreneurship. Internal entrepreneurship. Venture financing. Business plan. Entrepreneurship in developed and developing countries. Entrepreneurship and economic development. Evaluation of entrepreneurship in Turkey. Turkish general profile of entrepreneurship. International Entrepreneurship

ESM302 Renewable Energy Sources (2 1 0 4)

Introduction of renewable energy sources, economic situation of renewable energy sources, solar energy, wind energy, biomass energy, geothermal energy, parabolic collectors, photovoltaic cells, simulation of renewable energy systems.

ESM304 Heat Transfer- II (3 0 0 4)

Basic concepts, transient heat transfer, boiling heat transfer, condensation heat transfer, radiation heat transfer, radiation heat transfer between two-black surface, radiation heat transfer, relations between the shape factors, analogy between heat and mass transfer, water vapor migration in buildings, transient mass diffusion, mass convection.

ESM306 Energy Systems Engineering Laboratory II (2 2 0 3)

Definition and classification of heat exchangers, type of heat exchangers, determination of the total heat transfer coefficient, heat analysis methods of heat exchangers, logarithmic mean temperature difference method. NTU method, pressure concept, pressure losses in heat exchangers, calculations methods of heat exchangers, natural gas, characteristic feature, uses of natural gas in buildings, natural gas burner.

ESM308 Strength of Materials (2 1 0 4)

Basic concepts for machine elements, definition of machine elements, fundamentals of design and applications of machine elements, shafts and axles, rivet, weld, solder, shaft-hub connections, pins, springs, clutches and calculates of strength, lubricants and lubricants theory, sliding and rolling bearings, gears, belt and chain drivers.

ESM310 Power System Analysis (3 0 0 4)

Power systems and components. Diagrams of single-line, impedance and reactance. Per-Unit values and the calculation. Symmetrical components. Positive, negative and zero sequence circuits. Symmetrical and asymmetrical faults in power systems. Chosen of the bars and cables according to short-circuit current. Load flow analysis.

ESM312 Programming in Engineering (2 1 0 3)

Problem solving. Input-process-output. Design of algorithms and flow diagrams. Constants, variables and expressions. Arithmetic, relational and logical processors. Input-output statements. Conditional and iterative statements, loops. Vector and matrix representations. Character information processing. Sub-function and function. Structural programming language (C, C + +) program, applications in the C programming language.

ESM320 High Voltage Techniques (2 1 0 4)

Basic equations of the static electric field. Various electrode systems. Various electrode systems, the effects of high voltage on cables and insulators. Discharge events. Ionization.

ESM326 Exergy and its Applications (2 2 0 4)

Definition of exergy and energy, exergy in the balance and exergy losses, exergy efficiency of thermal systems, the basic thermodynamic applications of exergy analysis, calculation of exergy, calculation of exergy in open systems, the physical exergy calculations, the chemical exergy calculation, the thermal radiation exergy calculations, exergy analysis of a typical thermal systems, exergy analysis of heat exchanger, exergy analysis of current machines, exergy analysis of combustion processes, exergy analysis of steam producers and heating furnaces, exergy analysis of a steam power systems, exergy analysis of vapor compression refrigeration systems and heat pumps, exergy analysis of heat converters, exergy analysis of combined processes, exergy analysis of solar collectors.

ESM401 Industrial Training (5 0 0 5)

In the seventh semester, all students will receive job training in the sector concerned.

ESM403 Industrial Practice (0 15 0 15)

In the seventh semester, all students will receive job training in the sector concerned.

ESM405 Professional Practice - I (0 2 0 5)

In this section, both of the internships at the end of the 4th semester for 20 working days on students own area and at the end of the 6th semester for 20 working days on industrial area are evaluated and settled together.

ESM407 Professional Practice - II (0 2 0 5)

ESM410 Graduation Project (0 2 0 4)

Project, searching, test and observation, report. Determination of the project subject, proposal of the project. Project management (planning, proposal, time management, cost). Project study.

ESM412 Energy Laws and Regulations (2 1 0 5)

Regulation theory, general information about the course, the main ideas, history and the basic dynamics of regulation. Turkey`s Energy Market Turkey general information on energy markets, turkey energy market regulatory board`s duties and responsibilities. Electricity market History of Turkey’s electricity market. Electricity Market, The market within the framework of the electricity market law numbered 4628. Electricity Market Balance and settlement laws. Natural Gas Market History of Turkey’s natural gas market, natural gas market law with numbered 4646 market model. Natural Gas Market Network law. Oil Market: History of Turkey’s oil market, The Framework of the oil market law with numbered 5015. LPG Market Turkey`s LPG Market Market, LPG market law with numbered 5307. General informations related to other market-related. Customs taxs in regulatory markets. Tax in customs regulatory markets, Preparation process of customs tax, social welfare. Checking for regulated industries.

ESM414 Automatic Control Systems (3 0 0 4)

System theory and control systems: The definition and purpose. Control system examples, feedback and effects of the feedback. Transfer function and its properties pole, zero, stability concepts. Block diagrams, acquisition and reduction. Signal flow diagrams, acquisition, simplification, Mason gain formula. State-Space Analysis of Control Systems. Mathematical Models of Electrical Systems. Mathematical Models of Mechanical Systems. Modeling of electromechanical systems and electrical motors. Stability definitions, stability criteria, the Routh-Hurwitz criterion. Time domain response of first-order systems and its characteristics. Time domain response of second-order systems and its characteristics. The dominant pole, effect of adding poles and zero-pole systems.

ESM416 Cooling Technique and Applications (2 1 0 4)

History of the cooling and basic concept. Mechanical Vapor Compression Refrigeration Systems. Compressors. Condensers. Vaporizers. Expansion valves. Auxilary Elements. Cooling System with absorption. Refrigerants. Cold Storages. Heat Pumps. Refrigeration. Plant Operation. Installation, Service, Maintenance and Repair.

ESM426 Entrepreneurship - II (2 0 0 3)

ESM436 Solar Energy and its Applications (2 2 0 5)

Solar energy and its relationship with other renewable energy sources. Movement of the sun, solar geometry, basic knowledge. Types of radiation, calculations of the total solar radiation, types of solar collector, operating systems (direct and indirect systems, natural and forced systems, vacuum tube and heat pipe systems), its properties, connection types (parallel and series connected systems) and its efficiency. Solar energy and its relationship with existing systems, various solar energy applications (solar chimney, solar pond, solar cells, solar-powered swimming pool systems, solar energy heating systems, etc.). Calculation of the collector area, pipe diameter and pump capacity required for heating and hot water preparation systems. Designs related to the solar energy systems.

ESM442 Energy Biotechnologies (2 2 0 5)

Principles of biomass energy, areas of biomass formation ve biomass energy sources, biomass potential in Turkey and in the World, energy flow between the plant and the environment. photosynthesis, c3 and c4 metabolism in plants, the differences between c3 and c4 plants, plants grown for energy, physical and chemical properties of materials used in biomass energy conversion systems, methods of obtaining energy from biomass, thermochemical methods (direct combustion, gasification, pyrolysis, liquefaction), biochemical methods (alcohol fermentation, anaerobic fermentation, bio-photolysis), agro-chemical methods (fuel extraction), the use of biomass energy, the use of modern biomass, advantages and disadvantages of biomass energy.